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01-09-2021 | Solid Tumor | Special Report

Temporal evolution of metastatic disease: part II—a novel proposal for subcategorization of metastatic disease from non-neural solid tumors with diverse histologies and locations

Authors: Sireesha Yedururi, Leonardo Marcal, Ajaykumar C. Morani, Venkata Subbiah Katabathina, Nahyun Jo, Medhini Rachamallu, Srinivasa Prasad

Published in: Japanese Journal of Radiology | Issue 9/2021

Abstract

Tumor spread is a continuous process and metastases can further disseminate. Currently, metastatic disease from most primary tumors is subcategorized as M0 if absent and M1 if present. However, metastatic disease in different locations may have different prognostic implications, even if it is from the same primary tumor. The current staging systems for metastatic disease have not evolved to match our understanding of the disease’s evolution or the evolving treatment paradigms. Primary tumor-specific subcategorization of metastatic disease is currently available for a few tumors, but not all of them imply further remote spread of tumor, similar to tumor (T) and N (node) subcategorizations of the TNM staging, nor are they applicable to wide spectrum of other tumors. In this era of precision medicine, tumor-type agnostic therapies based on common biomarkers rather than primary tumor sites are emerging, but a subcategorization system applicable to metastatic disease from diverse primary tumor locations and with diverse histologies is not available. In this article, we discuss the need to further classify the metastatic disease and present a subcategorization applicable to metastatic disease from non-neural solid tumors from different primary tumor sites and with different histologies, which is based on the temporal spread of metastatic disease. Our proposed subcategorization scheme for metastatic disease into M0, M1, M2 and M3, is universally applicable to a diverse spectrum of non-neural solid tumors, and increasing M subcategorization represents further remote spread of tumor.

Amin MB, Edge S, Greene F, Byrd DR, Brookland RK, Washington MK, Gershenwald JE, Compton CC, Hess KR et al. AJCC cancer staging manual. In: Amin MB, Edge SB, Greene FL, Byrd DR, Brookland RK, Washington MK, et al. editors. Cham: Springer International Publishing; 2017.

Morgan-Parkes JH. Metastases: mechanisms, pathways, and cascades. Am J Roentgenol. 1995; 1075–82.

Massagué J, Obenauf AC. Metastatic colonization by circulating tumour cells. Nature. 2016;529:298–306.CrossRef

Chambers AF, Groom AC, MacDonald IC. Dissemination and growth of cancer cells in metastatic sites. Nat Rev Cancer. 2002;2:563–72.CrossRef

Scripcariu V, Ciobanu Apostol DG, Dumitrescu GF, Turliuc MD, Sava A. Clinical, histopathological and immunohistochemical features of brain metastases originating in colorectal cancer: a series of 27 consecutive cases. Rom J Morphol Embryol. 2020;61:81–93.CrossRef

Christensen TD, Spindler KLG, Palshof JA, Nielsen DL. Systematic review: brain metastases from colorectal cancer-incidence and patient characteristics. BMC Cancer. 2016.

Damiens K, Ayoub JPM, Lemieux B, Aubin F, Saliba W, Campeau MP, et al. Clinical features and course of brain metastases in colorectal cancer: an experience from a single institution. Curr Oncol. 2012.

Wroński M, Arbit E. Resection of brain metastases from colorectal carcinoma in 73 patients. Cancer. 1999;85:1677–85.CrossRef

Mahmoud N, Dunn KB. Metastasectomy for stage IV colorectal cancer. Dis Colon Rectum. 2010;53:1080–92.CrossRef

10.

Qiu M, Hu J, Yang D, Cosgrove DP, Xu R. Pattern of distant metastases in colorectal cancer: a SEER based study. Oncotarget. 2015.

11.

Smedby KE, Brandt L, Bäcklund ML, Blomqvist P. Brain metastases admissions in Sweden between 1987 and 2006. Br J Cancer. 2009;101:1919–24.CrossRef

12.

Giuliano AE, Feig S, Eilber FR. Changing metastatic patterns of osteosarcoma. Cancer. 1984;54:2160–4.CrossRef

13.

Bacci G, Avella M, Picci P, Briccoli A, Dallari D, Campanacci M. Metastatic patterns in osteosarcoma. Tumori. 1988.

14.

Meazza C, Scanagatta P. Metastatic osteosarcoma: a challenging multidisciplinary treatment. Expert Rev Anticancer Ther Taylor & Francis. 2016;16:543–56.CrossRef

15.

Bacci G, Longhi A, Bertoni F, Briccoli A, Versari M, Pignotti E, et al. Bone metastases in osteosarcoma patients treated with neoadjuvant or adjuvant chemotherapy: the Rizzoli experience in 52 patients. Acta Orthop. 2006;77:938–43.CrossRef

16.

Baram TZ, van Tassel P, Jaffe NA. Brain metastases in osteosarcoma: incidence, clinical and neuroradiological findings and management options. J Neurooncol. 1988;6:47–52.CrossRef

17.

Marina NM, Pratt CB, Shema SJ, Brooks T, Rao B, Meyer WH. Brain metastases in osteosarcoma. Brain. 1989;71:3656–60.

18.

Bekiesinska-Figatowska M, Duczkowska A, Duczkowski M, Bragoszewska H, Romaniuk-Doroszewska A, Iwanowska B, et al. CNS metastases from bone and soft tissue sarcomas in children, adolescents, and young adults: are they really so rare? Biomed Res Int. 2017;2017.

19.

Nakazawa K, Kurishima K, Tamura T, Kagohashi K, Ishikawa H, Hiroaki S, et al. Specific organ metastases and survival in small cell lung cancer. Oncol Lett. 2012;4:617–20.CrossRef

20.

Tamura T, Kurishima K, Nakazawa K, Kagohashi K, Ishikawa H, Hiroaki S, et al. Specific organ metastases and survival in metastatic non-small-cell lung cancer. Mol Clin Oncol. 2015;3:217–21.CrossRef

21.

Omuro AMP, Abrey LE. Brain metastases. Curr Neurol Neurosci Rep. 2004.

22.

Schouten LJ, Rutten J, Huveneers HAM, Twijnstra A. Incidence of brain metastases in a cohort of patients with carcinoma of the breast, colon, kidney, and lung and melanoma. Cancer. 2002;94:2698–705.CrossRef

23.

Fox BD, Cheung VJ, Patel AJ, Suki D, Rao G. Epidemiology of metastatic brain tumors. Neurosurg Clin N Am 2011.

24.

Cao CQ, Yan TD, Liauw W, Morris DL. Comparison of optimally resected hepatectomy and peritonectomy patients with colorectal cancer metastasis. J Surg Oncol. 2009;100:529–33.CrossRef

25.

Morris EJA, Forman D, Thomas JD, Quirke P, Taylor EF, Fairley L, et al. Surgical management and outcomes of colorectal cancer liver metastases. Br J Surg. 2010;97:1110–8.CrossRef

26.

Riihimaki M, Hemminki A, Sundquist J, Hemminki K. Patterns of metastasis in colon and rectal cancer. Sci Rep Nature Publishing Group. 2016;6:1–9.

27.

Zheng Z, Chen C, Jiang L, Zhou X, Dai X, Song Y, et al. Incidence and risk factors of gastrointestinal neuroendocrine neoplasm metastasis in liver, lung, bone, and brain: a population-based study. Cancer Med. 2019;8:7288–98.CrossRef

28.

Fenocchio E, Colombi F, Calella MG, Filippi R, Depetris I, Chilà G, et al. Improvement of metastatic colorectal cancer patient survival: single institution experience. Cancers (Basel). 2019;11:1–14.

29.

Siegel RL, Miller KD, Goding Sauer A, Fedewa SA, Butterly LF, Anderson JC, et al. Colorectal cancer statistics, 2020. CA Cancer J Clin. 2020;70:145–64.CrossRef

30.

Yan L, Zhang W. Precision medicine becomes reality-tumor type-agnostic therapy. Cancer Commun (London, England) BioMed Central. 2018;38:6.

31.

Offin M, Liu D, Drilon A. Tumor-agnostic drug development. Am Soc Clin Oncol Educ B. 2018;184–7.

32.

Franko J, Shi Q, Goldman CD, Pockaj BA, Nelson GD, Goldberg RM, et al. Treatment of colorectal peritoneal carcinomatosis with systemic chemotherapy: a pooled analysis of North Central Cancer Treatment Group phase III trials N9741 and N9841. J Clin Oncol. 2012;30:263–7.CrossRef

33.

Lemmens VE, Klaver YL, Verwaal VJ, Rutten HJ, Coebergh JWW, De Hingh IH. Predictors and survival of synchronous peritoneal carcinomatosis of colorectal origin: a population-based study. Int J Cancer. 2011;128:2717–25.CrossRef

34.

Shida D, Kanemitsu Y, Hamaguchi T, Shimada Y. Introducing the eighth edition of the tumor-node-metastasis classification as relevant to colorectal cancer, anal cancer and appendiceal cancer: a comparison study with the seventh edition of the tumor-node-metastasis and the Japanese Classification of Co. Jpn J Clin Oncol. 2019;49:321–8.CrossRef

35.

Tanaka T, Ozawa H, Nakagawa Y, Hirata A, Fujita S, Sugihara K. Verifying the M1c category of CRC: analysis of the data from a Japanese multi-institutional database. Int J Colorectal Dis. 2020;35:125–31.CrossRef

36.

Kobayashi H, Kotake K, Sugihara K. Prognostic scoring system for stage IV colorectal cancer: is the AJCC sub-classification of stage IV colorectal cancer appropriate? Int J Clin Oncol. 2013;18:696–703.CrossRef

37.

Wood DA. Clinical staging and end results classification: TNM system of clinical classification as applicable to carcinoma of the colon and rectum. Cancer. 1971;28:109–14.CrossRef

38.

Vigano L, Corleone P, Darwish SS, Turri N, Famularo S, Viggiani L, et al. Hepatic and extrahepatic colorectal metastases have discordant responses to systemic therapy. Pathology data from patients undergoing simultaneous resection of multiple tumor sites. Cancers (Basel). 2021;13:1–11.CrossRef

39.

Esmaeilzadeh M, Majlesara A, Faridar A, Hafezi M, Hong B, Esmaeilnia-Shirvani H, et al. Brain metastasis from gastrointestinal cancers: a systematic review. Int J Clin Pract. 2014;68:890–9.CrossRef

40.

Mundy GR. Metastasis to bone: causes, consequences and therapeutic opportunities. Nat Rev Cancer. 2002;2:584–93.CrossRef

41.

Kager L, Zoubek A, Pötschger U, Kastner U, Flege S, Kempf-Bielack B, et al. Primary metastatic osteosarcoma: presentation and outcome of patients treated on neoadjuvant Cooperative Osteosarcoma Study Group protocols. J Clin Oncol. 2003;21:2011–8.CrossRef

42.

Smeland S, Bielack SS, Whelan J, Bernstein M, Hogendoorn P, Krailo MD, et al. Survival and prognosis with osteosarcoma: outcomes in more than 2000 patients in the EURAMOS-1 (European and American Osteosarcoma Study) cohort. Eur J Cancer. 2019;109:36–50.CrossRef

43.

Lillemoe HA, Kawaguchi Y, Passot G, Karagkounis G, Simoneau E, You YQN, et al. Surgical resection for recurrence after two-stage hepatectomy for colorectal liver metastases is feasible, is safe, and improves survival. J Gastrointest Surg. 2019;23:84–92.CrossRef

Title: Temporal evolution of metastatic disease: part II—a novel proposal for subcategorization of metastatic disease from non-neural solid tumors with diverse histologies and locations
Authors: Sireesha Yedururi
Leonardo Marcal
Ajaykumar C. Morani
Venkata Subbiah Katabathina
Nahyun Jo
Medhini Rachamallu
Srinivasa Prasad
Publication date: 01-09-2021
Publisher: Springer Singapore
Keywords: Solid Tumor
Metastasis
Published in: Japanese Journal of Radiology / Issue 9/2021
Print ISSN: 1867-1071
Electronic ISSN: 1867-108X
DOI: https://doi.org/10.1007/s11604-021-01127-3

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Temporal evolution of metastatic disease: part II—a novel proposal for subcategorization of metastatic disease from non-neural solid tumors with diverse histologies and locations

Abstract

Keynote webinar | Spotlight on medication adherence

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